US2209093A - Tractor wheel suspension - Google Patents

Description

' July 23, 1940.. A. RoNNlNG A TRACTOR WHEEL SUSPENSION Filed Dec. 24, 193e 3 meets-Sheet 2 lmllm; L

INVENTOR A0044 DH @o/vN//VG BY Z ATTORNIV' Aals Patented July 23, 1.940

UNITED STATES PATENT OFFICE 2,209,093 Tamron WHEEL SUSPENSION Adolph Running, Minneapolis, Minn. `Application'December 24, 1938, Serial No. 247,608 I l 1sclaims. (Cl. 28o- 87) This invention relates to ground wheel sus? pension arrangements and devices f or motor vehicles and particularly for tractors of the type particularly designed for so-called row crop work,J

of wheels being such that the traction wheels' may Straddle two crop rows while the iront or steering wheels travel between the same two rows. A further object is to provide a mounting device for the front or steering wheels, which device includes a differential mechanism that will permit these wheels to move vertically with respect to each other and in constantly spaced vertical planes whereby the forward load is always uniformly distributed to both wheels, and without in any way interfering with the steering operation.- Still other and more specic objects will 2,5 be disclosed in the source of the following specification, reference beingihad tothe accompanying drawings, wherein:

Fig. .1 is a plan view of a cultivator equipped tractor embodying my invention and illustrating the positions of the supporting wheels and cultivator tools with respect to crop rows being cultivated.k l

Fig. 2 is a side elevation ofthe tractor shown in Fig. 1,` as seen from the right, with the near front steering wheel removed, and with a part ofthe rear, right traction wheel broken away.

Fig. 2A is an enlarged detail plan view'of the front wheel mounting unit, `as seen on line F156 is a'plan view of the mechanism shown in Fig. 5, with the upper casing partly removed. Fig. 7 is a section on llne11 in Fig. 8, and corresponds with Figs.' 3 and 5 but shows a further Vmodification in the diierential mechanism. Fig. 8 is a bottom plan view of the devicev Shown 7, with the lower casingsection'removed. Fig. 9 is a detail view of` a spacer shaft 4used in the two forms illustrated in Figs. 5-6 and .7-8.

`Referring to the drawings more particularly and by reference characters, IIJ designates the main frame of a tractor having a power plant I I, radiator I2, gasoline tank I3, `operators seat I4, and widely spaced rear traction wheels I5 both differentially-` driven by the power plant. At its forward end the tractor is supported on steering wheels I6, by mountings presently to be described, for steering movement about the axis of avertical'central steering post I1 journaled in an upright bearing sleeve I8 `secured in the frontal end of Yframe I0. The post I'l is turned to effect steering, by a worm and worm gear drive con-4 tained in housing I9, and the worm element is rotated by a Shaft` 20 extending rearwardly to aI hand` wheel 2I withinconvenient reach of the operator when seated on the seat` I4. Thus initial steering action of the tractor is `had by angling the wheels I6, on axis of post I1, by manipulating hand wheel 2I.

. To produce a secondary steering truck, I pro-v vide the post I'l with a rearwardly projecting arm 22 which is connected by cables 23, springs .24,` and arms 25 of control rods 26 for brakes2l of". the respective traction wheels I5, so thatfafteri the wheels I6 have been angled to a predeterr mined degree or extent then continued turning of the handwheel 2l will operate to brake the traction wheel I5 on the side to which the.trac.

tor is being steered, with a result that such wheel Q A will slow up or stop while the opposite wheel will be diierentially operated to turn relatively faster. In this manner the brakes are utilized to produce a much sharper turning movement of the tractor than would otherwise be the case.

As illustrated in Fig. 1, the tractor is in working position with respect.. to two .parallel crop rows of a field having similar and equally spaced f rows at both sides thereof. Cultivators are shown asmounted 4on the tractor for cultivatlngthe twointermediate rows, andwhen the machine reaches the end of the iield it is of course sharply turned and its direction is reversed so that the next two adjacent rows, at either side, maybe similarly cultivated. In the present instancethe my copending application Serial No. 226,941,1iled August 26th, 1938, for cultivator; and in the present instance are shown as supported by parallel, vertically adjustable, drag bars 3| which are so arranged that whilesubject to vertical adjustments will always retain the shovel shanks 32 in vertical positions and the shovels at set angles regardless of working depth.

The frontal drag bars 3| are pivotally connected, at their forward ends, to depending arms 33 of a cross bar`34. This bar is swingable supported, for transverse shifting with respect to the tractor, by links 35, secured to frame I8 as at 36, and the shifting movement is .effected by a link 31, connecting one of the links 35-to an arm 38 extending forwardly .from the steering shaft |1 so as to oscillate therewith. Thus transverse shifting of the front cultivators is accomplished simultaneously with-steering of the truck wheels' To provide vertical adjustment for the forward cultivators I connect the upper of each pair of drag bars 3| by a telescopic spring link 39 to a cross piece 40 of an arm 4I which is pivoted at its lower end to bar 34, while the upper end is connected to and operated by a rod 42 extending to the rear of the tractor. Each rod 42 thus controls one pair of shovel units. and the spring links 39 are so designed that while they serve to lift the bars 13| and shovels 28 they are also free to compress in order that the shovels may ride over stones or lother obstructions encountered in the eld. 'I'he rear ends of the rods 42 are connected to hand levers 43, mounted on the tractor within convenient reach of theoperator, and these levers also and similarly control the rear cultivator tools 38 through the medium of links 44, arms 45, and spring links .46. The center tool, 29, is adjusted through having complemental recesses in which are journaled shafts 53 and 54, respectively, of crank arms 55 and 56, provided at their ends opposite iromrthe shafts with spindles 51 on which are mounted the ground wheels I6. As shown in Fig. 2A the cranks extend in opposite longitudinal directions so that-the spindles 51 `will be directly or transversely opposite of each other. and will also be understood that as the cranks oscillate up and down the ground wheels can only move in vertical longitudinal planes which retain a fixed transversey spacing at all times and regardless of the relative' vertical positions of the wheels. As all of the diil'erential mechanism, presently to be described, is carried within the housing and by the two shafts 53 and 54, it will vbe understood that by removing the bolts 5| and lowering the housing section 50 the shafts ,and mechanism will follow, thus greatly facilitat- -ing disassemblage and reassemblage of the truck unit.

Within the housing the crank `shafts 53 and 54 are provided with integral, upstanding arms 58 and 59 that are connected by a coil spring 60. This spring is sufciently strong so that it will operate asa connecting link between the arms while also having limited flexibility whereby it will impart a shock absorbing or cushioning resistance to the upward pressure of the ground Wheels, it being understood that the tractor weight will be imposed on the crank shafts 53 and 54 in a manner that will create a spreading pressure between the arms 58 and 59 to tension the spring 68. It will also be understood, however, that while such weight pressure is being imposed it will in no wise prevent relative vertical movements of the wheels I6 as they pass over irregular ground surfaces, such movements being compensated by the differential or equalizing action o`f the mechanism within the housing.

In the modification illustrated in Figs. 5 and 6 a housing 48-5I similar to that shown in Figs. 2-4 is employed, but in this case the cranks 5| and 52 are mounted for coaxial swinging movement, both extending rearwardly from their respective recessed bearings 83 and 64. In this instance the cranks are provided with short hubs 65 and 56 which are center bored to receive the reduced ends 51 (see Fig. 9) of a spacer shaft 58 which thereby serves to more firmly establish a mutual bearing support as between the crank hubs.

The inner ends of the hubs 55 and 55 have integral upstanding arms 89 and 10, the rst of which is connected by a link 1|, of constant length, to an arm 12 of a shaft 'I3 journaled between the housing sections. An integral hub 14, of the arm 12 and shaft 13, has a. gear segment 15 which meshes with a similar gear segment 16 on the hub 11 of a shaft 18 also journaled between the housing sections and having an upstanding arm 19. The arms 10 and 19 are connected by a spring 80, which functions in a manner similar to the aforesaid spring 50, to yieldably connect the arms. The purpose of the arm and gear arrangement just described is to provide proper stress application to the spring. which is necessary because of the fact that the cranks 5| and 52 are coaxially journaled and both extend rearwardly instead of in opposite directions as in Figs. 2-4.

The form of the invention illustrated in Figs. 7 and 8 constitutes a rearrangement of parts as shown in Figs. 5-6 so as to utilize the cushioning properties of a compression spring in preference to tension springs as above described. In this instance the cranks 8| and 82 also extend rearwardly from the spacer shaft 68, but the inner crank arms 83 and 84 extend downwardly instead of upwardly, as do also the gear connected arms 85 and 86 which eiect the differential action. For this reason the plane-of separation between the housing sections 81 and 88.is higher than in Figs. 3-6, so as to bsect the shaft bearing recesses and facilitate assembly of the unit.`

Because of the link connection 89 between arms 84 and 85 it will be seen that the weight of the tractor on the wheel spindles will tend to move the lower ends of the arms 83 and 85 toward eachA The last mentioned end of the rod extends through the abutment and isprovided with an adjustable stop nut to limit lthe spread between arms 84 and 88, thus also limiting down movement of both wheels with respect to the tractor. The differential mechanism illustrated in Figs. 7 and 8 will,k as in the previously described forms, operate to equally distribute the tractor weight to both steering wheels while also permitting full fioating action of the Wheels in order that they may follow different ground contours and be easily steered at all times.

For the disclosure of other forms of steering wheel differential mountings, per se, attention is directed to my copending companion applications Serial No. 219,369, filed July 15th, 1938; Serial No. 242,725, and Serial No. 242,726, both filed November 28th, 1938; and Serial No. 244,019, filed December th, 1938.

'I'he advantages that result from the use of the differentially actuated steering wheels when used with tractor carried tools such as the row crop g necting the cranks within the housing, said difcultivator shown,fmay be noted as follows: In the first place it is found that inasmuch as the imposed weight of tractor and tools is equally distributed to both wheels at all times, and the wheels are free to move freely in opposite vertical directions in accordance with ground surface irregularities, steering ofthe tractor and corresponding shifting of the tools, when following crooked rows, is greatly facilitated. Secondly, and of equal importance, is the fact that the opposite vertical movements of the"wheels I6 operate to produce a moreuniform operating depth of the tools. This canl best be understood by comparison with modern tractor-cultivator combinations, in which quite similar arrangements are found except that the closely spaced steering wheels are invariably mounted for rotation about relatively fixed axes, and cannot move vertically with respect to each other. In such instances it will be' seen that when one of the wheels rides over an obstruction for example eight inches above the surface or path of travel of the other wheel then both wheels will of necessity beY raised eight inches and the cultivator tools carried by the front end of the tractor will be correspondingly raised eight inches. In the present instance, however, and .where any one of my differentially actuated wheel units are used, if one wheel rides overan eight inch high obstruction the other will still remain on the normal surface level, and as a result the steering post, front tractor end, and cultivator tools will be lifted only one half the height of the obstruction, or four inches. Thus it will be seen that the tools, working at a desired and predetermined depth below the surface will be maintained at that depth more uniformly and consistently than would otherwise be the case, and this is considered a valuable feature of my invention.

It is understood that suitable modifications may be made in the structure as disclosed, provided such modifications come within the spirit and scope of the appended claims. Having' now therefore fully illustrated and described my invention, what I claim to be new and desire to protect'by Letters Patent is:

1. In a vehicle, a steerable truck therefor comprising a housing mounted for turning movement about a generally upright axis and having bearings in the side walls thereof, said housing having upper and lower detachably connected sections the plane of division between which extends through said bearings, and wheel supported differentially connected cranks journaled in said bearings.

2. A vehicle supporting truck comprising` upper and lower detachably connected housing sections one of which is designed for direct attachmentto the vehicle, adjoining edges of said sections being formed with complemental bearing parts adaptedto be opened `by separating said sections, wheel supported cranks journaled in the bearings thus formed, and differential mecha'- nism connecting the cranks within the housing causing the cranks to move in opposite vertical directions as said wheels travel over irregular ground surfaces.

3. `A vehicle supporting truck comprising upper and lower detachably connected housing sections one of which is designed for direct attachment to the vehicle, adjoining edges of said sections being formed with complemental bearing parts adapted Vto be opened by separating said sections, wheel supported cranks journaled in the bearings thus formed, and differential mechanism conferential mechanism including at least one shaft journaled in complemental bearing recesses extending into both ofsaid housing sections whereby to release such shaft and permit removal thereof when the housing sections are separated.

4. In a vehicle, a mounting member, a pair of cranks journaled in the member, av pair of axially aligned wheels secured to the cranks, arms extending upwardly from said cranks, and differential acting means connecting the upper ends of said arms, said means including a resilientelement.

l 5. In a vehicle, a mounting member, wheel supported cranks journaled in the member at opposite sides thereof, arms extending upwardly from said cranks within the mounting member, and

6. In a vehicle, a mounting member, wheel sup- A ported cranks journaled in opposite Vsides of said member for movements in transversely spaced planes, arms connected with t-he cranks and extending generally upwardly from axes of oscillation, and means including` a spring connected with the upper ends of said arms tending to hold them in predetermined relative positions but causing them to move in unison to differentially actuate the cranks in opposite directions.

7. In a vehicle, a mounting member, wheel supported cranks journaled in said member, arms connected with the cranks and extending generally upwardly from axes of oscillation, and means including a spring connected with said arms tending to hold them in predetermined relative positions but causing them to move in unison to differentially actuate the cranks in opposite directions, said cranks being journaled for rotation on longitudinally spaced axes.

8. In a vehicle, a mounting member, wheel supported cranks journaled in said member, arms connected with the cranks and extending generally upwardly from axes of oscillation,and means including a spring connected with said arms at points spaced from their axes of oseillation and tending to hold the arms in predetermined relative positions but causing them to move in unison to differentially actuate the cranks in opposite directions, said cranks being journaled for rotation about a common axis.

9. In a vehicle, a pair of. coaxially journaled wheel supported cranks, a pair of gear connected arms pivoted eccentricallywith respect to said cranks, and operating connections between the cranks and arms.

10. In a vehicle, a pair of fulcrumed cranks having upwardly extended arms, normally axially aligned wheels supporting the cranks, and differential acting means connecting the arms at points spaced from the crank fulcrums to actuate the cranks in opposite vertical directions, said means including a yieldable element.

11. In a vehicle, a mounting member, a pair of wheel suppOrted cranks coaxially journaled in the mounting member for movements in transversely spaced planes, a of arms swingably secured to the mounting member and connected for oscillating lmovements in oppositel directions, and operating connections between the arms and the respective cranks.

12.` In a vehicle', a mounting member, a pairof wheel supported cranks coaxially journaled in the mounting member for movements in transversely.' spaced'pla'nes, a pair of arms swingably secured to the mounting member and connected for oscillating movements in opposite directions, and operating connections between the arms and the respective cranks, one of said operating connections including a yieldable element.

13. In a vehicle, a steerable member mounted for movement about a vertical axis, a pair of lwheel supported cranks coaxially journaled in the'membenfone at each side ,thereof,farmsextending from the resepctive cranks, a pair of members pivoted to the steerable member at spaced positions with respect to said arms and interconnectedor oscillating movements in opposite directions, and operating connections between the' respective interconnected members and said arms, one of said connections including a posite directions, and operating connections between the respective interconnected members and said arms, one of said connections including e.v

yieldable compression element.

15. In a vehicle, a steerable member mounted formovement about a vertical axis, a pair of posite directions, and operating connections between the respective interconnected members and said arms, one of said connections including an adjustable element.-

16.l A vehicle supporting truck comprising upper and lower detachably connected housing sections one of which is designed for direct attachment to the vehicle, adjoining edges of said sections being formed with complemental bearing parts adapted to be opened by separating said sections, wheel supported cranks journaled in the bearings thus formed, and diierential'mechanism connecting the cranks within the housing causing the cranks to move in opposite directions as said wheels travel over irregular ground surfaces.

17. In a vehicle, a mounting member, wheel supported cranks journaled in the member at op# posite sides thereof, arms extending upwardly from said cranks within the mounting member, and means including a yieldable element con necting said arms and actuating the same to move the cranks in opposite directions.

18. In a vehicle, a pair of wheel supporte crank members, arms extending from the members, and a pivotally mounted member operatively interposed between said arms, said pivotally mounted member and said arms all being movable in parallel planes.

ADOLPH RONNING.

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